A PVD Joining Hybrid Process for Manufacturing Complex Metal Composites

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OriginalspracheDeutsch
Seiten (von - bis)373-378
Seitenumfang6
FachzeitschriftWelding journal
Jahrgang2007
Ausgabenummer86(12)
PublikationsstatusVeröffentlicht - 2007

Abstract

In the presented report, a new hybrid process is introduced, the gas/solid-TLP-bonding. In this process, a filler metal is transported into the joining area via the gaseous phase. Then, the filler metal reacts with the metal base material by a metallurgical gas-solid-reaction, forming a liquid transition phase, which solidifies isothermally during subsequent heat treatment. In this report fundamental investigations for simple model systems such as Sb/Fe, Sb/steel and Zn/Ni are described. The entire process will be modeled taking into account the different physical sequences occurring (filler metal evaporating, filler metal transport to the joining areas, filler metal adsorption to the base metal, alloying of the filler metal and the base metal, isothermal solidification).
Based on the obtained results, the gas/solid-TLP-bonding is a process, which allows brazing of small and complex components, where, to date, no suitable joining process is available.

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A PVD Joining Hybrid Process for Manufacturing Complex Metal Composites. / Bach, Friedrich Wilhelm; Möhwald, Kai; Holländer, Ulrich et al.
in: Welding journal, Jahrgang 2007, Nr. 86(12), 2007, S. 373-378.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Bach, FW, Möhwald, K, Holländer, U, Nicolaus, M & Deißer, TA 2007, 'A PVD Joining Hybrid Process for Manufacturing Complex Metal Composites', Welding journal, Jg. 2007, Nr. 86(12), S. 373-378.
Bach, F. W., Möhwald, K., Holländer, U., Nicolaus, M., & Deißer, T. A. (2007). A PVD Joining Hybrid Process for Manufacturing Complex Metal Composites. Welding journal, 2007(86(12)), 373-378.
Bach, Friedrich Wilhelm ; Möhwald, Kai ; Holländer, Ulrich et al. / A PVD Joining Hybrid Process for Manufacturing Complex Metal Composites. in: Welding journal. 2007 ; Jahrgang 2007, Nr. 86(12). S. 373-378.
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title = "A PVD Joining Hybrid Process for Manufacturing Complex Metal Composites",
abstract = "In the presented report, a new hybrid process is introduced, the gas/solid-TLP-bonding. In this process, a filler metal is transported into the joining area via the gaseous phase. Then, the filler metal reacts with the metal base material by a metallurgical gas-solid-reaction, forming a liquid transition phase, which solidifies isothermally during subsequent heat treatment. In this report fundamental investigations for simple model systems such as Sb/Fe, Sb/steel and Zn/Ni are described. The entire process will be modeled taking into account the different physical sequences occurring (filler metal evaporating, filler metal transport to the joining areas, filler metal adsorption to the base metal, alloying of the filler metal and the base metal, isothermal solidification).Based on the obtained results, the gas/solid-TLP-bonding is a process, which allows brazing of small and complex components, where, to date, no suitable joining process is available.",
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Download

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T1 - A PVD Joining Hybrid Process for Manufacturing Complex Metal Composites

AU - Bach, Friedrich Wilhelm

AU - Möhwald, Kai

AU - Holländer, Ulrich

AU - Nicolaus, Martin

AU - Deißer, Todd Alexander

PY - 2007

Y1 - 2007

N2 - In the presented report, a new hybrid process is introduced, the gas/solid-TLP-bonding. In this process, a filler metal is transported into the joining area via the gaseous phase. Then, the filler metal reacts with the metal base material by a metallurgical gas-solid-reaction, forming a liquid transition phase, which solidifies isothermally during subsequent heat treatment. In this report fundamental investigations for simple model systems such as Sb/Fe, Sb/steel and Zn/Ni are described. The entire process will be modeled taking into account the different physical sequences occurring (filler metal evaporating, filler metal transport to the joining areas, filler metal adsorption to the base metal, alloying of the filler metal and the base metal, isothermal solidification).Based on the obtained results, the gas/solid-TLP-bonding is a process, which allows brazing of small and complex components, where, to date, no suitable joining process is available.

AB - In the presented report, a new hybrid process is introduced, the gas/solid-TLP-bonding. In this process, a filler metal is transported into the joining area via the gaseous phase. Then, the filler metal reacts with the metal base material by a metallurgical gas-solid-reaction, forming a liquid transition phase, which solidifies isothermally during subsequent heat treatment. In this report fundamental investigations for simple model systems such as Sb/Fe, Sb/steel and Zn/Ni are described. The entire process will be modeled taking into account the different physical sequences occurring (filler metal evaporating, filler metal transport to the joining areas, filler metal adsorption to the base metal, alloying of the filler metal and the base metal, isothermal solidification).Based on the obtained results, the gas/solid-TLP-bonding is a process, which allows brazing of small and complex components, where, to date, no suitable joining process is available.

M3 - Artikel

VL - 2007

SP - 373

EP - 378

JO - Welding journal

JF - Welding journal

SN - 0043-2296

IS - 86(12)

ER -

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